AWS Go code generator
is designed to generate code for Go controllers. Working with AWS community, we
have added support to generate Crossplane controllers. The generated code covers
mostly AWS API related parts such as forProvider fields in CRDs and conversion
functions between CRD and AWS Go SDK structs. The rest of the controller is very
similar to manually implemented ones; they use the same Crossplane managed
reconciler, CRDs follow the same patterns and all additional functionalities of
Crossplane are supported.
Most of the generated code is ready to go but there are places where we need Crossplane-specific functionality, or some hacks to work around non-generic behavior of the AWS API.
This guide shows how to get a new resource support up and running step by step.
First of all, you need to sync and update the submodules. This operation is required to make tasks work properly
make submodulesAWS groups their resources under services and the code generator works on
per-service basis. For example, rds is a service that contains DBInstance,
DBCluster and many other related resources. The first thing to do is to figure
out which service the resource we'd like to generate belongs to.
Take a look at the full list here
and make note of the service name. For example, in order to generate Lambda
resources, you need to use lambda as service name. Once you figure that out,
the following is the commands you need to run to generate CRDs and controllers:
touch apis/<service id>/generator-config.yaml
make services SERVICES=<service id>The first run will take a while since it clones the code generator and AWS SDK.
Once it is completed, you'll see new folders in apis and pkg/controller
directories. By default, it generates every resource it can recognize but that's
not what you want if you'd like to add support for only a few resources. In order
to ignore some of the generated resources, you need to create an
apis/<serviceid>/generator-config.yaml file with the following content:
ignore:
resource_names:
- DBInstance
- DBCluster
- <other CRD kinds you want to ignore>If you'd like to specify an API version for a generated resource other than
the default v1alpha1, you can do so with a configuration in generator-config.yaml
as follows:
resources:
"Distribution":
api_versions:
- name: "v1beta1"If not overridden in the generator-config.yaml file, the default version generated is
v1alpha1.
When you re-run the generation with this configuration, existing files won't be
deleted. So you may want to delete everything in apis/<serviceid>/v1alpha1and
then re-run the command.
After ACK generation process completes, we need to run Crossplane generation procedure
which includes kubebuilder and crossplane-tools processes. However, currently
there are some missing structs in apis/<serviceid>/v1alpha1 folder called
Custom<CRDName>Parameters which we'll use in the next steps. For now, create a
file called apis/<serviceid>/v1alpha1/custom_types.go with empty structs to get
the code to compile. For example, let's say you have a CRD whose kind is Stage.
The empty struct would look like following:
// CustomStageParameters includes the custom fields of Stage.
type CustomStageParameters struct{}Now the code compiles, run the following:
make generate
This command will first run kubebuilder generation tools which take care of
zz_generated.deepcopy.gofiles and CRD YAMLs. Then it will run the generators in crossplane-tools that will createzz_generated.managed.goandzz_generated.managedlist.gofiles that help CRD structs satisfy the Go interfaces we use in crossplane-runtime.
There are a few things we need to implement manually since there is no support for their generation yet.
If a new group of api's has been introduced, we will need write a Setup function to satisfy
the interface which we will need to register the contollers. For example, if you added globalaccelerator
api group, we will need a file in `pkg/controller/globalaccelerator/setup.go with following contents:
package globalaccelerator
import (
ctrl "sigs.k8s.io/controller-runtime"
"github.com/crossplane/crossplane-runtime/pkg/controller"
"github.com/crossplane-contrib/provider-aws/pkg/controller/globalaccelerator/accelerator"
"github.com/crossplane-contrib/provider-aws/pkg/controller/globalaccelerator/listener"
"github.com/crossplane-contrib/provider-aws/pkg/controller/globalaccelerator/endpointgroup"
"github.com/crossplane-contrib/provider-aws/pkg/utils/setup"
)
// Setup athena controllers.
func Setup(mgr ctrl.Manager, o controller.Options) error {
return setup.SetupControllers(
mgr, o,
accelerator.SetupAccelerator,
listener.SetupListener,
endpointgroup.SetupEndpointGroup,
)
}Now you need to make sure this function is called in setup phase here.
The generated controller needs to be registered with the main controller manager
of the provider. Create a file called pkg/controller/<serviceid>/<managedResource>/setup.go and
add the setup function like the following:
// SetupStage adds a controller that reconciles Stage.
func SetupStage(mgr ctrl.Manager, o controller.Options) error {
name := managed.ControllerName(svcapitypes.StageGroupKind)
cps := []managed.ConnectionPublisher{managed.NewAPISecretPublisher(mgr.GetClient(), mgr.GetScheme())}
if o.Features.Enabled(features.EnableAlphaExternalSecretStores) {
cps = append(cps, connection.NewDetailsManager(mgr.GetClient(), v1alpha1.StoreConfigGroupVersionKind))
}
return ctrl.NewControllerManagedBy(mgr).
Named(name).
WithOptions(o.ForControllerRuntime()).
WithEventFilter(resource.DesiredStateChanged()).
For(&svcapitypes.Stage{}).
Complete(managed.NewReconciler(mgr,
resource.ManagedKind(svcapitypes.StageGroupVersionKind),
managed.WithExternalConnecter(&connector{kube: mgr.GetClient()}),
managed.WithPollInterval(o.PollInterval),
managed.WithLogger(o.Logger.WithValues("controller", name)),
managed.WithRecorder(event.NewAPIRecorder(mgr.GetEventRecorderFor(name))),
managed.WithConnectionPublishers(cps...)))
}If the group didn't exist before, we need to register its schema here.
In Crossplane, fields whose value can be taken from another CRD have two additional
fields called *Ref and *Selector. At the moment, there is no metadata in
either ACK or AWS SDK about these relations, so we will need to define them manually.
Let's say you're working on Route resource and there is a parameter called
ApiId in the CRD and its value can be taken from an API managed resource.
In order to define the relation, we first make ACK omit the field from the code
generation by adding the instances of SDK calls it exists in like the following
in generator-config.yaml:
ignore:
field_paths:
- CreateRouteInput.ApiId
- DeleteRouteInput.ApiIdOnce you see that it doesn't exist under RouteParameters anymore, you can add
that field and its ApiIdRef and ApiIdSelector fields to Custom<CRDName>Parameters
struct we created in the earlier section. The addition will be similar to the
following:
// APIID is actually required but since it's reference-able, it's not marked
// as required.
type CustomAPIMappingParameters struct {
// ApiId is the ID for the API.
// +immutable
// +crossplane:generate:reference:type=API
ApiId *string `json:"apiId,omitempty"`
// ApiIdRef is a reference to an API used to set
// the APIID.
// +optional
ApiIdRef *xpv1.Reference `json:"apiIdRef,omitempty"`
// ApiIdSelector selects references to API used
// to set the APIID.
// +optional
ApiIdSelector *xpv1.Selector `json:"apiIdSelector,omitempty"`
}After you added the new field here, you need to handle usage of that field manually
in all hooks, like preCreate, preObserve etc., one by one since ACK won't
generate the assignment statements for it anymore.
Please note the line right before the definition of ApiId field that starts
with +crossplane. That's where we tell code generator that which kind this
field can reference to, and in this case it's API kind that lives under the
same package. If it was in another package like ec2.VPC, we could add the following
line to make it reference it:
// +crossplane:generate:reference:type=github.com/crossplane/provider-aws/apis/ec2/v1alpha1.VPCOnce you're done, you can run make generate, the necessary reference resolvers
will be generated automatically.
In case you need to override some of the behavior like the name of the ref and selector fields, or a custom function to fetch the value that is other than external name of the referenced object, you can use the following comment markers:
// +crossplane:generate:reference:type=API
// +crossplane:generate:reference:extractor=ApiARN()
// +crossplane:generate:reference:refFieldName=ApiIdRef
// +crossplane:generate:reference:selectorFieldName=ApiIdSelectorYou can add the package prefix for type and extractor configurations if they
live in a different Go package.
Be aware that once you customize the extractor, you will need to implement it yourself. An example can be found here.
Crossplane has the notion of external name that we put under annotations. It corresponds
to the identifier field of the resource in AWS SDK structs. We try to stick with
name if available and unique enough but sometimes have to fall back to ARN. The
requirement for a field to be external-name is that it should be sufficient to
make all the calls we need together with required fields. In Stage case, it's
StageName field.
We need to ignore StageName
in generation and then inject the value of our annotation in its place in the SDK calls.
Likely, we need to do this injection before every SDK call. The following is an example for hook functions injected:
// SetupStage adds a controller that reconciles Stage.
func SetupStage(mgr ctrl.Manager, o controller.Options) error {
name := managed.ControllerName(svcapitypes.StageGroupKind)
opts := []option{
func(e *external) {
e.preObserve = preObserve
e.preCreate = preCreate
e.preUpdate = preUpdate
e.preDelete = preDelete
},
}
return ctrl.NewControllerManagedBy(mgr).
Named(name).
WithOptions(o.ForControllerRuntime()).
WithEventFilter(resource.DesiredStateChanged()).
For(&svcapitypes.Stage{}).
Complete(managed.NewReconciler(mgr,
resource.ManagedKind(svcapitypes.StageGroupVersionKind),
managed.WithExternalConnecter(&connector{kube: mgr.GetClient(), opts: opts}),
managed.WithInitializers(),
managed.WithPollInterval(o.PollInterval),
managed.WithLogger(o.Logger.WithValues("controller", name)),
managed.WithRecorder(event.NewAPIRecorder(mgr.GetEventRecorderFor(name)))))
}
func preObserve(_ context.Context, cr *svcapitypes.Stage, obj *svcsdk.DescribeStageInput) error {
obj.StageName = pointer.ToOrNilIfZeroValue(meta.GetExternalName(cr))
return nil
}
func preCreate(_ context.Context, cr *svcapitypes.Stage, obj *svcsdk.CreateStageInput) error {
obj.StageName = pointer.ToOrNilIfZeroValue(meta.GetExternalName(cr))
return nil
}
func preUpdate(_ context.Context, cr *svcapitypes.Stage, obj *svcsdk.UpdateStageInput) error {
obj.StageName = pointer.ToOrNilIfZeroValue(meta.GetExternalName(cr))
return nil
}
func preDelete(_ context.Context, cr *svcapitypes.Stage, obj *svcsdk.DeleteStageInput) error {
obj.StageName = pointer.ToOrNilIfZeroValue(meta.GetExternalName(cr))
return nil
}If the external-name is decided by AWS after the creation (like in most EC2
resources such as vpc-id of VPC), then you need to inject postCreate to
set the crossplane resource external-name to the unique identifier of the
resource, for eg see apigatewayv2
You can discover what you can inject by inspecting zz_controller.go file.
In some situations aws api returns an error in cases where the resource does not exist.
It will be noticeable when the resource never gets created but you see an error from the api
which describes the object. You should see return ok && awsErr.Code() == "ResourceNotFoundException" in
the IsNotFound-function of zz_conversion.go.
To tell ack which error indicates that the resource is not present, add a similar config to generator-config.yaml:
resources:
Table:
fields:
PointInTimeRecoveryEnabled:
from:
operation: UpdateContinuousBackups
path: PointInTimeRecoverySpecification.PointInTimeRecoveryEnabled
exceptions:
errors:
404:
code: ResourceNotFoundException
Every managed resource needs to report its readiness. We'll do that in postObserve
call like the following:
func postObserve(_ context.Context, cr *svcapitypes.Backup, resp *svcsdk.DescribeBackupOutput, obs managed.ExternalObservation, err error) (managed.ExternalObservation, error) {
if err != nil {
return managed.ExternalObservation{}, err
}
switch pointer.StringValue(resp.BackupDescription.BackupDetails.BackupStatus) {
case string(svcapitypes.BackupStatus_SDK_AVAILABLE):
cr.SetConditions(xpv1.Available())
case string(svcapitypes.BackupStatus_SDK_CREATING):
cr.SetConditions(xpv1.Creating())
case string(svcapitypes.BackupStatus_SDK_DELETED):
cr.SetConditions(xpv1.Unavailable())
}
return obs, nil
}Some resources get ready right when you create them, like Stage. In such cases,
postObserve could be just like the following:
func (*external) postObserve(_ context.Context, cr *svcapitypes.Stage, _ *svcsdk.GetStageOutput, obs managed.ExternalObservation, err error) (managed.ExternalObservation, error) {
if err != nil {
return managed.ExternalObservation{}, err
}
cr.SetConditions(xpv1.Available())
return obs, nil
}The earlier section is sufficient to get a controller into a working state. But there are some functionalities missing like late-initialization and update. These are not supported by ACK and even if there is support for update, it usually has some caveats that cannot be made generic. So, we need to implement them manually.
Late initialization means that if a user doesn't have a desired value for a field
and provider chooses a default, we need to fetch that value from provider and
assign it to the corresponding field in spec. You can take a look at RDSInstance
example to see how it looks like but in most cases, we have much less fields so
it's not that long.
In order to override default no-op late initialization code, we'll use the same mechanism as others:
func SetupStage(mgr ctrl.Manager, l logging.Logger, limiter workqueue.RateLimiter) error {
name := managed.ControllerName(svcapitypes.StageGroupKind)
opts := []option{
func(e *external) {
e.lateInitialize = lateInitialize
...
},
}
....
func lateInitialize(*svcapitypes.StageParameters, *svcsdk.DescribeStageOutput) error {
return nil
}Before issuing an update call, Crossplane needs to know whether resource is up-to-date
or not. In order to do that, we write a comparison function between observation
and our spec. Here is an example.
After writing the function, you can use it instead of the default alwaysUpToDate
similar to others:
func SetupStage(mgr ctrl.Manager, l logging.Logger, limiter workqueue.RateLimiter) error {
name := managed.ControllerName(svcapitypes.StageGroupKind)
opts := []option{
func(e *external) {
e.isUpToDate = isUpToDate
...
},
}
....
func isUpToDate(*svcapitypes.Stage, *svcsdk.DescribeStageOutput) bool {
return true
}ACK has partial support for update calls. You need to inspect what's generated and inject custom code wherever necessary. In a lot of cases, Update calls are tricky and may have to be done by several calls. You can see an injected example here with custom logic to work around an API quirk.
For the generated code, you don't need to write any tests. However, we encourage you to write tests for all custom code blocks you have written.
You need to thoroughly test the controller by using example YAMLs. Make sure
every functionality you implement works by checking with AWS console. Once all
looks good, add the example YAML you used to examples/<serviceid>/<crd-name>.yaml
You can use any Kubernetes cluster to deploy provider-aws. We'll use kind to
get a dev cluster:
kind create cluster --wait 5mYou can test your code either by local setup, which allows better debugging experience, or in-cluster setup which is the real world setup.
We will deploy the CRDs so that controllers can bind their watchers:
kubectl apply -f package/crdsNow you can run the controller from your IDE or terminal and it'll start reconciling:
go run cmd/provider/main.goYou need to set KUBECONFIG environment variable if it is not already set.
You can build the image and deploy it into the cluster using Crossplane Package Manager to test the real-world scenario.
Pre-requisites:
- Install Crossplane on the kind cluster following the steps here.
- Install Crossplane CLI following the steps here.
- Docker hub account with your own public repository.
Follow the steps below to get set-up for in-cluster testing:
-
Run
make build VERSION=test-versioninprovider-aws. This will create two artifactsbuild-<short-sha>/provider-aws-amd64:latestController image_output/xpkg/linux_amd64/provider-aws-foo.xpkgOCI image bundle with the controller and package.yaml
-
Tag and push both the images to your personal docker repository:
make publish.artifacts PLATFORMS=linux_amd64 XPKG_REG_ORGS=index.docker.io/<username> VERSION=test-version- Now we got the provider package pushed, and we can install it just like an official provider. Run:
kubectl crossplane install provider <username>/provider-aws:test-versionAfter either one of local or in-cluster is completed, you'll
get a cluster ready to start reconciling custom resources you create. First, we
need to create a default ProviderConfig so that managed resources can use it to
authenticate to AWS API. Use the following command to get the current AWS CLI
user credentials:
BASE64ENCODED_AWS_ACCOUNT_CREDS=$(echo -e "[default]\naws_access_key_id = $(aws configure get aws_access_key_id --profile $aws_profile)\naws_secret_access_key = $(aws configure get aws_secret_access_key --profile $aws_profile)" | base64 | tr -d "\n")Use it to create a Secret and ProviderConfig:
cat > providerconfig.yaml <<EOF
---
apiVersion: v1
kind: Secret
metadata:
name: aws-account-creds
namespace: crossplane-system
type: Opaque
data:
credentials: ${BASE64ENCODED_AWS_ACCOUNT_CREDS}
---
apiVersion: aws.crossplane.io/v1beta1
kind: ProviderConfig
metadata:
name: example
spec:
credentials:
source: Secret
secretRef:
namespace: crossplane-system
name: aws-account-creds
key: credentials
EOF
# apply it to the cluster:
kubectl apply -f "providerconfig.yaml"
# delete the credentials variable
unset BASE64ENCODED_AWS_ACCOUNT_CREDSYou can create a managed resource now. Here is an example for a DynamoDB Table:
apiVersion: dynamodb.aws.crossplane.io/v1alpha1
kind: Table
metadata:
name: sample-table
spec:
forProvider:
region: us-east-1
attributeDefinitions:
- attributeName: attribute1
attributeType: S
keySchema:
- attributeName: attribute1
keyType: HASH
provisionedThroughput:
readCapacityUnits: 1
writeCapacityUnits: 1
streamSpecification:
streamEnabled: true
streamViewType: NEW_AND_OLD_IMAGESCreate and Delete section is sufficient if you aim for alpha quality. If you want to aim for beta-level quality, you need to make sure all scenarios work.
Once you create the YAML, you should see the corresponding resource in AWS console. Make sure you see the resource and properties match.
Then delete the CR in the cluster and check AWS console to see if it's gone.
Make a change in the custom resource with kubectl edit and see if the resource
got the update by checking AWS console.
After the creation, some fields are populated by AWS if they are not given. Go to AWS console and compare the properties you see there with the custom resource in the cluster. You need to see all properties in custom resource as well, especially the ones you didn't initially specify.
If IsUpToDate check is giving false negatives, controller will make update calls
repeatedly and this causes problems. You can usually notice this easily but it's good
to check either via a breakpoint in your IDE or a print statement to see if Update
is run even when there is no change on the custom resource.